A function, f(x), is said to grow faster than another function, g(x), if the limit of their ratios as x approaches infinity goes to some positive, bounded number, as seen in the definition below.

In the case of sublinear, we want to prove that a function grows slower than c*n, where c is some positive number.

Thus, for each function, f(n), in your list, we want the ratio of f(n) to (c*n). If the limit is 0, this means the function, f(n), is sublinear. Otherwise it grows at the same (approximate) speed of n or faster.

```
lim n->inf (log log n)/(c*n) = 0 (via l'Hopital's)
```

**(sublinear)**

```
lim n->inf (n)/(c*n) = 1/c != 0
```

**(linear)**

```
lim n->inf (log n)/(c*n) = 0 (via l'Hopital's)
```

**(sublinear)**

```
lim n->inf (sqrt(n))/(c*n) = 0
```

**(sublinear)**